def: T_RI_pat<C2_bitsclri, int_hexagon_C2_bitsclri>;
def: T_RR_pat<C2_bitsset, int_hexagon_C2_bitsset>;
+// Linear feedback-shift Iteration.
+def : T_PP_pat <S2_lfsp, int_hexagon_S2_lfsp>;
+
// Shift by immediate and add
def : T_RRI_pat<S2_addasl_rrri, int_hexagon_S2_addasl_rrri>;
def : T_RR_pat <S2_asr_r_r_sat, int_hexagon_S2_asr_r_r_sat>;
def : T_RR_pat <S2_asl_r_r_sat, int_hexagon_S2_asl_r_r_sat>;
+def : T_R_pat <A2_sxtw, int_hexagon_A2_sxtw>;
+
+def : T_R_pat <S2_brev, int_hexagon_S2_brev>;
+
+def : T_R_pat <A2_abs, int_hexagon_A2_abs>;
+def : T_R_pat <A2_abssat, int_hexagon_A2_abssat>;
+def : T_R_pat <A2_negsat, int_hexagon_A2_negsat>;
+
+def : T_R_pat <A2_swiz, int_hexagon_A2_swiz>;
+
+def : T_P_pat <A2_sat, int_hexagon_A2_sat>;
+def : T_R_pat <A2_sath, int_hexagon_A2_sath>;
+def : T_R_pat <A2_satuh, int_hexagon_A2_satuh>;
+def : T_R_pat <A2_satub, int_hexagon_A2_satub>;
+def : T_R_pat <A2_satb, int_hexagon_A2_satb>;
+
def : T_RI_pat <S2_asr_i_r, int_hexagon_S2_asr_i_r>;
def : T_RI_pat <S2_lsr_i_r, int_hexagon_S2_lsr_i_r>;
def : T_RI_pat <S2_asl_i_r, int_hexagon_S2_asl_i_r>;
// Shift left by immediate with saturation.
def : T_RI_pat <S2_asl_i_r_sat, int_hexagon_S2_asl_i_r_sat>;
+//===----------------------------------------------------------------------===//
+// Template 'def pat' to map tableidx[bhwd] intrinsics to :raw instructions.
+//===----------------------------------------------------------------------===//
+class S2op_tableidx_pat <Intrinsic IntID, InstHexagon OutputInst,
+ SDNodeXForm XformImm>
+ : Pat <(IntID IntRegs:$src1, IntRegs:$src2, u4ImmPred:$src3, u5ImmPred:$src4),
+ (OutputInst IntRegs:$src1, IntRegs:$src2, u4ImmPred:$src3,
+ (XformImm u5ImmPred:$src4))>;
+
+
+// Table Index : Extract and insert bits.
+// Map to the real hardware instructions after subtracting appropriate
+// values from the 4th input operand. Please note that subtraction is not
+// needed for int_hexagon_S2_tableidxb_goodsyntax.
+
+def : Pat <(int_hexagon_S2_tableidxb_goodsyntax IntRegs:$src1, IntRegs:$src2,
+ u4ImmPred:$src3, u5ImmPred:$src4),
+ (S2_tableidxb IntRegs:$src1, IntRegs:$src2,
+ u4ImmPred:$src3, u5ImmPred:$src4)>;
+
+def : S2op_tableidx_pat <int_hexagon_S2_tableidxh_goodsyntax, S2_tableidxh,
+ DEC_CONST_SIGNED>;
+def : S2op_tableidx_pat <int_hexagon_S2_tableidxw_goodsyntax, S2_tableidxw,
+ DEC2_CONST_SIGNED>;
+def : S2op_tableidx_pat <int_hexagon_S2_tableidxd_goodsyntax, S2_tableidxd,
+ DEC3_CONST_SIGNED>;
+
//
// ALU 32 types.
//
* ALU32/PERM *
*********************************************************************/
-// ALU32 / PERM / Combine.
-def HEXAGON_A2_combinew:
- di_ALU32_sisi <"combine", int_hexagon_A2_combinew>;
-def HEXAGON_A2_combine_hh:
- si_MInst_sisi_hh <"combine", int_hexagon_A2_combine_hh>;
-def HEXAGON_A2_combine_lh:
- si_MInst_sisi_lh <"combine", int_hexagon_A2_combine_lh>;
-def HEXAGON_A2_combine_hl:
- si_MInst_sisi_hl <"combine", int_hexagon_A2_combine_hl>;
-def HEXAGON_A2_combine_ll:
- si_MInst_sisi_ll <"combine", int_hexagon_A2_combine_ll>;
-def HEXAGON_A2_combineii:
- di_MInst_s8s8 <"combine", int_hexagon_A2_combineii>;
-
// ALU32 / PERM / Mux.
def HEXAGON_C2_mux:
si_ALU32_qisisi <"mux", int_hexagon_C2_mux>;
-// ALU32 / PERM / Shift halfword.
-def HEXAGON_A2_aslh:
- si_ALU32_si <"aslh", int_hexagon_A2_aslh>;
-def HEXAGON_A2_asrh:
- si_ALU32_si <"asrh", int_hexagon_A2_asrh>;
-def SI_to_SXTHI_asrh:
- si_ALU32_si <"asrh", int_hexagon_SI_to_SXTHI_asrh>;
-
-// ALU32 / PERM / Sign/zero extend.
-def HEXAGON_A2_sxth:
- si_ALU32_si <"sxth", int_hexagon_A2_sxth>;
-def HEXAGON_A2_sxtb:
- si_ALU32_si <"sxtb", int_hexagon_A2_sxtb>;
-def HEXAGON_A2_zxth:
- si_ALU32_si <"zxth", int_hexagon_A2_zxth>;
-def HEXAGON_A2_zxtb:
- si_ALU32_si <"zxtb", int_hexagon_A2_zxtb>;
-
/********************************************************************
* ALU32/PRED *
*********************************************************************/
* ALU64/ALU *
*********************************************************************/
-// ALU64 / ALU / Add.
-def HEXAGON_A2_addp:
- di_ALU64_didi <"add", int_hexagon_A2_addp>;
-def HEXAGON_A2_addsat:
- si_ALU64_sisi_sat <"add", int_hexagon_A2_addsat>;
-
// ALU64 / ALU / Compare.
def HEXAGON_C2_cmpeqp:
qi_ALU64_didi <"cmp.eq", int_hexagon_C2_cmpeqp>;
def HEXAGON_C2_cmpgtup:
qi_ALU64_didi <"cmp.gtu", int_hexagon_C2_cmpgtup>;
-// ALU64 / ALU / Logical operations.
-def HEXAGON_A2_andp:
- di_ALU64_didi <"and", int_hexagon_A2_andp>;
-def HEXAGON_A2_orp:
- di_ALU64_didi <"or", int_hexagon_A2_orp>;
-def HEXAGON_A2_xorp:
- di_ALU64_didi <"xor", int_hexagon_A2_xorp>;
-
-// ALU64 / ALU / Subtract.
-def HEXAGON_A2_subp:
- di_ALU64_didi <"sub", int_hexagon_A2_subp>;
-def HEXAGON_A2_subsat:
- si_ALU64_sisi_sat <"sub", int_hexagon_A2_subsat>;
-
// ALU64 / ALU / Transfer register.
def HEXAGON_A2_tfrp:
di_ALU64_di <"", int_hexagon_A2_tfrp>;
-/********************************************************************
-* ALU64/BIT *
-*********************************************************************/
-
-// ALU64 / BIT / Masked parity.
-def HEXAGON_S2_parityp:
- si_ALU64_didi <"parity", int_hexagon_S2_parityp>;
-
-/********************************************************************
-* ALU64/PERM *
-*********************************************************************/
-
-// ALU64 / PERM / Vector pack high and low halfwords.
-def HEXAGON_S2_packhl:
- di_ALU64_sisi <"packhl", int_hexagon_S2_packhl>;
-
/********************************************************************
* ALU64/VB *
*********************************************************************/
* MTYPE/ALU *
*********************************************************************/
-// MTYPE / ALU / Add and accumulate.
-def HEXAGON_M2_acci:
- si_MInst_sisisi_acc <"add", int_hexagon_M2_acci>;
-def HEXAGON_M2_accii:
- si_MInst_sisis8_acc <"add", int_hexagon_M2_accii>;
-def HEXAGON_M2_nacci:
- si_MInst_sisisi_nac <"add", int_hexagon_M2_nacci>;
-def HEXAGON_M2_naccii:
- si_MInst_sisis8_nac <"add", int_hexagon_M2_naccii>;
-
-// MTYPE / ALU / Subtract and accumulate.
-def HEXAGON_M2_subacc:
- si_MInst_sisisi_acc <"sub", int_hexagon_M2_subacc>;
-
// MTYPE / ALU / Vector absolute difference.
def HEXAGON_M2_vabsdiffh:
di_MInst_didi <"vabsdiffh",int_hexagon_M2_vabsdiffh>;
def HEXAGON_M2_vabsdiffw:
di_MInst_didi <"vabsdiffw",int_hexagon_M2_vabsdiffw>;
-// MTYPE / ALU / XOR and xor with destination.
-def HEXAGON_M2_xor_xacc:
- si_MInst_sisisi_xacc <"xor", int_hexagon_M2_xor_xacc>;
-
/********************************************************************
* MTYPE/COMPLEX *
* MTYPE/MPYH *
*********************************************************************/
-// MTYPE / MPYH / Multiply and use lower result.
-//def HEXAGON_M2_mpysmi:
-//FIXME: Hexagon_M2_mpysmi should really by of the type si_MInst_sim9,
-// not si_MInst_sis9 - but for now, we will use s9.
-// def Hexagon_M2_mpysmi:
-// si_MInst_sim9 <"mpyi", int_hexagon_M2_mpysmi>;
-def Hexagon_M2_mpysmi:
- si_MInst_sis9 <"mpyi", int_hexagon_M2_mpysmi>;
-def HEXAGON_M2_mpyi:
- si_MInst_sisi <"mpyi", int_hexagon_M2_mpyi>;
-def HEXAGON_M2_macsip:
- si_MInst_sisiu8_acc <"mpyi", int_hexagon_M2_macsip>;
-def HEXAGON_M2_maci:
- si_MInst_sisisi_acc <"mpyi", int_hexagon_M2_maci>;
-def HEXAGON_M2_macsin:
- si_MInst_sisiu8_nac <"mpyi", int_hexagon_M2_macsin>;
-
// MTYPE / MPYH / Multiply word by half (32x16).
//Rdd[+]=vmpywoh(Rss,Rtt)[:<<1][:rnd][:sat]
//Rdd[+]=vmpyweh(Rss,Rtt)[:<<1][:rnd][:sat]
def HEXAGON_M2_vrmac_s0:
di_MInst_dididi_acc <"vrmpyh", int_hexagon_M2_vrmac_s0>;
-
-/********************************************************************
-* STYPE/ALU *
-*********************************************************************/
-
-// STYPE / ALU / Absolute value.
-def HEXAGON_A2_abs:
- si_SInst_si <"abs", int_hexagon_A2_abs>;
-def HEXAGON_A2_abssat:
- si_SInst_si_sat <"abs", int_hexagon_A2_abssat>;
-
-// STYPE / ALU / Sign extend word to doubleword.
-def HEXAGON_A2_sxtw:
- di_SInst_si <"sxtw", int_hexagon_A2_sxtw>;
-
-
-/********************************************************************
-* STYPE/BIT *
-*********************************************************************/
-
-// STYPE / BIT / Count leading.
-def HEXAGON_S2_cl0:
- si_SInst_si <"cl0", int_hexagon_S2_cl0>;
-def HEXAGON_S2_cl0p:
- si_SInst_di <"cl0", int_hexagon_S2_cl0p>;
-def HEXAGON_S2_cl1:
- si_SInst_si <"cl1", int_hexagon_S2_cl1>;
-def HEXAGON_S2_cl1p:
- si_SInst_di <"cl1", int_hexagon_S2_cl1p>;
-def HEXAGON_S2_clb:
- si_SInst_si <"clb", int_hexagon_S2_clb>;
-def HEXAGON_S2_clbp:
- si_SInst_di <"clb", int_hexagon_S2_clbp>;
-def HEXAGON_S2_clbnorm:
- si_SInst_si <"normamt", int_hexagon_S2_clbnorm>;
-
-// STYPE / BIT / Count trailing.
-def HEXAGON_S2_ct0:
- si_SInst_si <"ct0", int_hexagon_S2_ct0>;
-def HEXAGON_S2_ct1:
- si_SInst_si <"ct1", int_hexagon_S2_ct1>;
-
-// STYPE / BIT / Compare bit mask.
-def Hexagon_C2_bitsclr:
- qi_SInst_sisi <"bitsclr", int_hexagon_C2_bitsclr>;
-def Hexagon_C2_bitsclri:
- qi_SInst_siu6 <"bitsclr", int_hexagon_C2_bitsclri>;
-def Hexagon_C2_bitsset:
- qi_SInst_sisi <"bitsset", int_hexagon_C2_bitsset>;
-
-// STYPE / BIT / Extract unsigned.
-// Rd[d][32/64]=extractu(Rs[s],Rt[t],[imm])
-def HEXAGON_S2_extractu:
- si_SInst_siu5u5 <"extractu",int_hexagon_S2_extractu>;
-def HEXAGON_S2_extractu_rp:
- si_SInst_sidi <"extractu",int_hexagon_S2_extractu_rp>;
-def HEXAGON_S2_extractup:
- di_SInst_diu6u6 <"extractu",int_hexagon_S2_extractup>;
-def HEXAGON_S2_extractup_rp:
- di_SInst_didi <"extractu",int_hexagon_S2_extractup_rp>;
-
-// STYPE / BIT / Insert bitfield.
-def Hexagon_S2_insert:
- si_SInst_sisiu5u5 <"insert", int_hexagon_S2_insert>;
-def Hexagon_S2_insert_rp:
- si_SInst_sisidi <"insert", int_hexagon_S2_insert_rp>;
-def Hexagon_S2_insertp:
- di_SInst_didiu6u6 <"insert", int_hexagon_S2_insertp>;
-def Hexagon_S2_insertp_rp:
- di_SInst_dididi <"insert", int_hexagon_S2_insertp_rp>;
-
-// STYPE / BIT / Innterleave/deinterleave.
-def Hexagon_S2_interleave:
- di_SInst_di <"interleave", int_hexagon_S2_interleave>;
-def Hexagon_S2_deinterleave:
- di_SInst_di <"deinterleave", int_hexagon_S2_deinterleave>;
-
-// STYPE / BIT / Linear feedback-shift Iteration.
-def Hexagon_S2_lfsp:
- di_SInst_didi <"lfs", int_hexagon_S2_lfsp>;
-
-// STYPE / BIT / Bit reverse.
-def Hexagon_S2_brev:
- si_SInst_si <"brev", int_hexagon_S2_brev>;
-
-// STYPE / BIT / Set/Clear/Toggle Bit.
-def HEXAGON_S2_setbit_i:
- si_SInst_siu5 <"setbit", int_hexagon_S2_setbit_i>;
-def HEXAGON_S2_togglebit_i:
- si_SInst_siu5 <"togglebit", int_hexagon_S2_togglebit_i>;
-def HEXAGON_S2_clrbit_i:
- si_SInst_siu5 <"clrbit", int_hexagon_S2_clrbit_i>;
-def HEXAGON_S2_setbit_r:
- si_SInst_sisi <"setbit", int_hexagon_S2_setbit_r>;
-def HEXAGON_S2_togglebit_r:
- si_SInst_sisi <"togglebit", int_hexagon_S2_togglebit_r>;
-def HEXAGON_S2_clrbit_r:
- si_SInst_sisi <"clrbit", int_hexagon_S2_clrbit_r>;
-
-// STYPE / BIT / Test Bit.
-def HEXAGON_S2_tstbit_i:
- qi_SInst_siu5 <"tstbit", int_hexagon_S2_tstbit_i>;
-def HEXAGON_S2_tstbit_r:
- qi_SInst_sisi <"tstbit", int_hexagon_S2_tstbit_r>;
-
-
/********************************************************************
* STYPE/COMPLEX *
*********************************************************************/
* STYPE/PERM *
*********************************************************************/
-// STYPE / PERM / Saturate.
-def HEXAGON_A2_sat:
- si_SInst_di <"sat", int_hexagon_A2_sat>;
-def HEXAGON_A2_satb:
- si_SInst_si <"satb", int_hexagon_A2_satb>;
-def HEXAGON_A2_sath:
- si_SInst_si <"sath", int_hexagon_A2_sath>;
-def HEXAGON_A2_satub:
- si_SInst_si <"satub", int_hexagon_A2_satub>;
-def HEXAGON_A2_satuh:
- si_SInst_si <"satuh", int_hexagon_A2_satuh>;
-
-// STYPE / PERM / Swizzle bytes.
-def HEXAGON_A2_swiz:
- si_SInst_si <"swiz", int_hexagon_A2_swiz>;
-
// STYPE / PERM / Vector align.
// Need custom lowering
def HEXAGON_S2_valignib:
def HEXAGON_C2_vitpack:
si_SInst_qiqi <"vitpack",int_hexagon_C2_vitpack>;
-// STYPE / SHIFT / Table Index.
-def Hexagon_S2_tableidxb_goodsyntax:
- si_MInst_sisiu4u5 <"tableidxb",int_hexagon_S2_tableidxb_goodsyntax>;
-def Hexagon_S2_tableidxd_goodsyntax:
- si_MInst_sisiu4u5 <"tableidxd",int_hexagon_S2_tableidxd_goodsyntax>;
-def Hexagon_S2_tableidxh_goodsyntax:
- si_MInst_sisiu4u5 <"tableidxh",int_hexagon_S2_tableidxh_goodsyntax>;
-def Hexagon_S2_tableidxw_goodsyntax:
- si_MInst_sisiu4u5 <"tableidxw",int_hexagon_S2_tableidxw_goodsyntax>;
-
/********************************************************************
* STYPE/VH *